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Handbook of scaling methods in aquatic ecology: Measurement, analysis, simulation
Seuront, L.; Strutton, P.G. (Ed.) (2004). Handbook of scaling methods in aquatic ecology: Measurement, analysis, simulation. CRC Press: Boca Raton. ISBN 0-8493-1344-9. 600 pp.

Available in  Authors 
    VLIZ: Ecology ECO.30 [102039]

Keywords
    Ecology
    Measurement
    Methodology
    Simulation
    Marine/Coastal

Authors  Top 
  • Seuront, L., editor
  • Strutton, P.G., editor

Content
  • Wolk, F.; Seuront, L.; Yamazaki, H.; Leterne, S. (2004). Comparison of biological scale resolution from CTD and microstructure measurements, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 3-15, more
  • Benfield, M.C.; Schwehm, C.J.; Fredericks, R.G.; Squyres, G.; Keenan, S.F.; Trevorrow, M.V. (2004). Measurement of zooplankton distributions with a high-resolution digital camera system, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 17-30, more
  • Cowles, T.J. (2004). Planktonic layers: physical and biological interactions on the small scale, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 31-49, more
  • Strutton, P.G.; Chavez, F.P. (2004). Scales of biological-physical coupling in the Equatorial Pacific, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 51-63, more
  • Hermand, J.-P. (2004). Acoustic remote sensing of photosynthetic activity in seagrass beds, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 65-96, more
  • Davoult, D.; Migné, A.; Spilmont, N. (2004). Multiscale in situ measurements of intertidal benthic production and respiration, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 97-107, more
  • Blakeway, D.R.; Robles, C.D.; Fuentes, D.A.; Qiu, H.-L. (2004). Spatially extensive, high resolution images of rocky shore communities, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 109-123, more
  • O'Reilly, C.M.; Verburg, P.; Hecky, R.E.; Plisnier, P-D.; Cohen, A.S. (2004). Food web dynamics in stable isotope ecology: time integration of different trophic levels, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 125-133, more
  • Hirschmugl, C.J.; Bunta, M.; Giordano, M. (2004). Synchrotron-based infrared imaging of Euglena gracilis single cells, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 135-147, more
  • Yen, J.; Prusak, A.C.; Caun, M.; Doall, M.; Brown, J.; Strickler, J.R. (2004). Signaling during mating in the pelagic copepod, Temora longicornis, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 149-159, more
  • Banas, N.S.; Wang, D.-P.; Yen, J. (2004). Experimental validation of an individual-based model for zooplankton swarming, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 161-180, more
  • Solari, A.P.; Castro, J.J.; Bas, C. (2004). On skipjack tuna dynamics: similarity at several scales, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 183-199, more
  • Cyr, H.; Dillon, P.J.; Parker, J.E. (2004). The temporal scaling of environmental variability in rivers and lakes, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 201-213, more
  • Mahadevan, A.; Campbell, J.W. (2004). Biogeochemical variability at the sea surface: how it is linked to process response times, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 215-227, more
  • Johnson, M.P. (2004). Challenges in the analysis and simulation of benthic community patterns, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 229-243, more
  • Davenport, J. (2004). Fractal dimension estimation in studies of epiphytal and epilithic communities: strengths and weaknesses, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 245-256, more
  • Mitchell, J.G. (2004). Rank-size analysis and vertical phytoplankton distribution patterns, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 257-278, more
  • Dremin, I.M.; Ivanov, O.V.; Nechitailo, V.A. (2004). An introduction to wavelets, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 279-296, more
  • Fisher, K.E.; Wiebe, P.H.; Malamud, B.D. (2004). Fractal characterization of local hydrographic and biological scales of patchiness on Georges Bank, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 297-319, more
  • Osborn, T.; Ostrander, G.K. (2004). Orientation of sea fans perpendicular to the flow, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 321-328, more
  • Osborn, T.; Barber, R.T. (2004). Why are large, delicate, gelatinous organisms so successful in the ocean's interior?, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 329-332, figures, more
  • Seuront, L.; Brewer, M.C.; Strickler, J.R. (2004). Quantifying zooplankton swimming behavior: the question of scale, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 333-359, more
  • Souissi, S.; Bernard, O. (2004). Identification of interactions in copepod populations using a qualitative study of stage-structured population models, in: Seuront, L. et al. Handbook of scaling methods in aquatic ecology: Measurement, analysis, simulation. pp. 361-379, more
  • DeAngelis, D.L.; Mooij, W.M.; Basset, A. (2004). The importance of spatial scale in the modeling of aquatic ecosystems, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 383-400, more
  • Malchow, H.; Medvinsky, A.B.; Petrovskii, S.V. (2004). Patterns in models of plankton dynamics in a heterogeneous environment, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 401-410, more
  • Grimm, V.; Berger, U. (2004). Seeing the forest for the trees, and vice versa: pattern-oriented ecological modelling, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 411-428, more
  • Donalson, D.D.; Desharnais, R.A.; Robles, C.D.; Nisbet, R.M. (2004). Spatial dynamics of a benthic community: applying multiple models to a single system, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 429-444, more
  • Skyllingstad, E.D. (2004). Effects of Langmuir circulation on buoyant particles, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 445-452, more
  • Schmitt, F.G. (2004). Modeling of turbulent intermittency: multifractal stochastic processes and their simulation, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 453-468, more
  • Yamazaki, H.; Squires, K.D. (2004). An application of lognormal theory to moderate Reynolds number turbulent structures, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 469-478, more
  • Jiang, H. (2004). Numerical simulations of the flow field at the scale size of an individual copepod, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 479-491, more
  • Yamazaki, H.; Squires, K.D.; Strickler, J.R. (2004). Can turbulence reduce the energy costs of hovering for planktonic organisms?, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 493-506, more
  • Huse, G.; Giske, J. (2004). Utilizing different levels of adaptation in individual-based modelling, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 507-521, more
  • Souissi, S.; Ginot, V.; Seuront, L.; Uye, S.-I. (2004). Using multiagent systems to develop individual-based models for copepods: consequences of individual behavior and spatial heterogeneity on the emerging properties at the population scale, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 523-542, more
  • Yamazaki, A.K.; Kamykowski, D. (2004). Modeling planktonic behavior as a complex adaptive system, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 543-557, more
  • Caparroy, P. (2004). Discrete events-based Lagrangian approach as a tool for modelling predator-prey interactions in the plankton, in: Seuront, L. et al. (Ed.) Handbook of scaling methods in aquatic ecology: measurement, analysis, simulation. pp. 559-573, more

Abstract
    The evolution of observational instruments, simulation techniques, and computing power has given aquatic scientists a new understanding of biological and physical processes that span temporal and spatial scales. This has created a need for a single volume that addresses concepts of scale in a manner that builds bridges between experimentalists and theoreticians in aquatic ecology. Handbook of Scaling Methods in Aquatic Ecology: Measurement, Analysis, Simulation is the first comprehensive compilation of modern scaling methods used in marine and freshwater ecological research. Written by leading researchers, it presents a systematic approach to dealing with space and time in aquatic ecology. This is a compendium that analyzes themes related to the response or behavior of organisms to processes occurring over multiple spatial and temporal scales. This book covers: novel techniques for data collection, focusing on processes over a broad range of scales (from bacteria to ocean basins); newly-developed concepts and data analysis algorithms; and innovative computer models and simulations to mimic complex biological processes. The Handbook serves as a reference volume for investigators seeking insight into new experimental approaches and data analysis, as well as the sensor design required for optimal sampling. Many of the algorithms and models provided are directly applicable to your experimental data. This comprehensive treatment of scaling methods and applications can help foster a unified understanding of subject matter among the modeling, experimental, and field research communities.

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